JP6868080B2 - Sliding door device - Google Patents

Description

The present invention relates to a sliding door device, and more particularly to a sliding door having fireproof performance.

As shown in FIG. 9, in the hanging type sliding door device, the door roller 10 provided on the upper end surface of the door body 6 opens and closes the building opening by traveling on the rail 11 extending in the opening width direction in the upper case. .. The upper portion of the door body 6 extends into the upper case from the opening formed on the lower surface of the upper case, and at least between the door body 6 and the opening on the lower surface of the upper case due to the opening / closing operation of the door body 6. A clearance C of a few millimeters is required.

Since there are components of the drive mechanism 7, specifically, resin parts (covered parts of electric wires and rotating rollers of the door roller 10), grease (electric motor 71), and other easily ignitable elements in the upper case. , These elements may be ignited by the heat of a fire or the like, and the flame may be exposed from the clearance C on the lower surface of the upper case. Even in the conventional sliding door device, the upper end of the door body 6 is a smoke return member 9'(similar configuration is disclosed in Patent Document 1), but elements having a possibility of ignition and clearance C are used. Because of the short distance, when actually ignited, there was a risk that the flame would be exposed to the outside due to the air flow.
Patent No. 5189328

An object of the present invention is to ensure fire prevention performance when a flame is generated in the upper case of a sliding door device.

The technical means adopted by the present invention is a sliding door device that opens and closes and moves while the upper end of the door body has a clearance and is accepted in the upper case.
The upper end surface of the door body includes an upper surface having a first extension portion extending beyond the outdoor side surface portion of the door body and a second extension portion extending beyond the indoor side surface portion of the door body, and an outdoor side surface of the door body. A flame flow resistance member is provided, which is composed of an outdoor hanging side that is separated from the portion and an indoor hanging side that is separated and opposed to the indoor side surface of the door body.
A part of the upper case is composed of an inspection cover forming an indoor side finding surface and an indoor side lower surface of the upper case.
The second extending portion extends toward the indoor side toward the inspection cover so that the indoor side hanging side faces the inspection cover portion with a clearance.
The flame generated above the door body is separated from the door body by the upper surface of the second extending portion.
Sliding door device.
Typically, the door roller provided on the upper end surface of the door body is a sliding door device that opens and closes the opening by traveling on the rail in the upper case, and when the door body ignites in the upper case, the door body There is a high possibility that the upper door roller and motor part will be the source of ignition.

In the present invention, the space between the door body and the inspection cover is used to separate the indoor hanging side of the flame flow resistance member from the door body and bring it closer to the inspection cover. The clearance between the hanging side on the indoor side and the inspection cover can be set small as long as it does not interfere with the opening and closing of the door body.
In the embodiment described later, the inspection cover includes a cross member extending in the opening width direction inside a corner formed by the indoor side finding surface and the indoor side lower surface.
The indoor side hanging side faces the cross member with a clearance.
If there is no member such as a cross member inside the vertical surface (indoor side finding surface) of the inspection cover, the indoor side hanging side is on the inner surface of the inspection cover vertical surface (indoor side finding surface). It may be opposed to each other with a clearance.
Further, in the embodiment described later, the first extension portion has a shorter extension dimension than the second extension portion, but in the case where a space exists on the outdoor side of the door body, the first extension portion is used. The protruding portion may be lengthened in the same manner as the second extending portion.

In one embodiment, the second extending portion is formed with a rising edge extending upward.
In the embodiment described later, the rising side is formed at the tip of the second extending portion and extends on the same vertical plane as the hanging side on the indoor side.
The portion where the rising edge is formed is not limited to the tip of the second extending portion, and may be an intermediate portion or a portion that rises diagonally.

In one aspect, a thermal expansion refractory member is provided on the lower surface of the indoor side at a position directly below the lower end of the hanging side of the indoor side.
The thermal expansion refractory member foams due to the heat of a fire, thereby blocking the clearance between the lower end of the hanging side on the indoor side and the lower surface on the indoor side, and preventing the flame from passing through the clearance.
Further, since the thermal expansion refractory member is provided on a flat surface, it is possible to prevent the door body from coming off due to opening / closing or deterioration over time.

In one embodiment, the outdoor lower surface is located below the outdoor hanging side.
A thermal expansion refractory member is provided on the lower surface of the outdoor side at a position directly below the lower end of the hanging side of the outdoor side.
The thermal expansion refractory member foams due to the heat of a fire, thereby blocking the clearance between the lower end of the outdoor hanging side and the outdoor lower surface, and preventing the flame from passing through the clearance.
Further, since the thermal expansion refractory member is provided on a flat surface, it is possible to prevent the door body from coming off due to opening / closing or deterioration over time.

In one embodiment, a support side for supporting the rail is located above the first extension portion, and the first extension portion is provided with a thermal expansion fireproof member.
The thermal expansion refractory member foams due to the heat of a fire, thereby blocking the clearance between the first extension portion and the support side (rail) and preventing the flame from passing through the clearance.
Even when the first extension portion is shorter than the second extension portion, the path of the flame on the outdoor side is effectively blocked.
Further, since the thermal expansion refractory member is provided on a flat surface, it is possible to prevent the door body from coming off due to opening / closing or deterioration over time.

In one embodiment, the door tail side end of the upper surface of the flame flow resistance member protrudes from the door tail side end face of the door body.
A rising side is formed at the end on the door tail side, and a thermal expansion fireproof member is provided along the lower end of the rising side.
In one embodiment, the indoor side rising side and the outdoor side rising side are formed on the indoor side lower surface and the outdoor side rising side, respectively, in a horizontally long opening between the indoor side rising side and the outdoor side rising side. The upper end of the door body is accepted with clearance,
The height dimension of the indoor side hanging side and the indoor side hanging side of the flame flow resistance member is more than twice the height dimension of the indoor side rising side and the outdoor side rising side forming the horizontally long opening.
In order to increase the reachable distance between the door body of the flame generated above the door body and the lower surface on the indoor side, the height dimension of the hanging side on the indoor side and the hanging side on the indoor side of the flame flow resistance member Is preferably large, and may be 3 times or more and 4 times or more.

According to the present invention, even if a resin part or the like in the upper case is ignited, it is possible to limit the exposure of the flame from the clearance on the lower surface of the upper case to the outside, and thus the fire prevention performance can be ensured.

On the indoor side of the door body, the flame generated above the door body was separated from the door body by the upper surface of the second extending portion of the flame flow resistance member, and further separated from the door body by the hanging side on the indoor side. The state is maintained, and the flame toward the indoor side along the upper surface of the second extension portion is guided downward along the indoor side hanging side, and the indoor side hanging side of the door body and the indoor side surface portion of the door body are guided downward. It passes through the space between the doors, and the reach to the clearance between the door body of the flame generated above the door body and the lower surface on the indoor side is set long.

By forming a rising side extending further upward on the second extending portion of the flame flow resistance member, the flame toward the indoor side along the upper surface of the second extending portion is guided upward along the rising side. Then, the door is guided downward along the indoor side hanging side, and passes through the space between the indoor side hanging side and the indoor side surface portion of the door body, so that the reachable distance is further extended.

A support side for supporting the rail is located above the first extension portion of the flame flow resistance member, and if the first extension portion is provided with a thermal expansion refractory member, heat is generated by the heat of a fire. The foaming of the expansion refractory member closes the clearance between the first extension portion and the support side (rail), and prevents the flame from passing through the clearance.

A flame flow resistance member located directly below the lower end of the outdoor hanging side, with a thermal expansion refractory member provided on the outdoor lower surface, and a flame flow resistance member located directly below the lower end of the indoor hanging side. In the case where the thermal expansion refractory member is provided on the lower surface of the indoor side, the thermal expansion refractory member foams due to the heat of the fire, so that the clearance between the lower end of the outdoor hanging side and the lower surface of the outdoor side and the indoor hanging side The clearance between the lower end of the room and the lower surface on the indoor side is closed to prevent the flame from passing through the clearance.

It is a front view which looked at the sliding door device (fully closed state) which concerns on this embodiment from the indoor side. It is a side view seen from the door end side and the front view seen from the indoor side of the door body of the sliding door device which concerns on this embodiment. It is a partially enlarged view of the upper part of the side view of FIG. It is a partially omitted top view of the door body shown in FIG. It is a side view which shows the inside of the upper case of the sliding door apparatus which concerns on this embodiment. It is a diagram similar to FIG. 5, and is a diagram showing the drive mechanism omitted. It is a partial view which shows the lower frame part of the upper case by further omitting a part of FIG. 6, and shows the state which the thermal expansion refractory member foamed and expanded, and the clearance was closed. It is a front view which shows the inside of the upper case of the sliding door apparatus which concerns on this embodiment. It is a side view which shows the inside of the upper case of the conventional sliding door apparatus.

An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a front view of the sliding door device (fully closed state) according to the present embodiment as viewed from the indoor side. The sliding door device includes a door end side vertical frame 1, a door tail side vertical frame 2, and an upper case. A frame portion formed of 3 and a lower frame 4, a vertically rectangular fixed panel 5 provided on a half portion of the frame portion on the side of the door tail in the width direction, and a half portion on the side of the door end in the width direction. It is provided with a vertically rectangular door body 6 that opens and closes a building opening.

The upper case 3 is a box-shaped body extending in the opening width direction as a whole, and the drive mechanism 7 of the door body 6 is housed in the internal space (FIG. 5). The indoor side portion of the upper case 3 is formed of an inspection cover 8, and the upper case 3 includes a case main body and an inspection cover 8 rotatably attached to the case main body. By opening the inspection cover 8, the internal space of the upper case 3 is exposed, and the drive mechanism 7 can be maintained. The inspection cover may be removable with respect to the case body instead of being rotatable with respect to the case body.

As shown in FIG. 2, the door body 6 is composed of a door end side vertical stile 60, a door tail side vertical stile 61, an upper stile 62, a lower stile 63, and a panel body 6 ′ constituting a surface portion of the door body 6. Become. As shown in FIGS. 3, 6, and 7, the upper stile 62 includes an upper end surface 620 (the upper end surface of the door body 6), an outdoor side surface portion 621, and an indoor side surface portion 622. As shown in FIG. 4, the door end side vertical stile 60 includes a door end side end surface 600, an outdoor side surface portion 601 and an indoor side surface portion 602, and the door butt side vertical stile 61 has a door butt side end surface 610 and an outdoor side. It is provided with a side surface portion 611 and an indoor side surface portion 612.

As shown in FIGS. 5 to 7, the upper end portion of the door body 6 (the upper half portion of the upper stile 62, the upper end portion of the door end side vertical stile 60, and the upper end portion of the door tail side vertical stile 61) is the upper case 3 It is formed on the lower surface and extends into the upper case 3 through a horizontally long opening extending in the opening width direction, and a clearance C exists between the door body 6 and the opening. A flame flow resistance member 9 is fixed to the upper end surface 620 of the door body 6 to delay the flow of smoke passing through the clearance C and the rotation of the flame, and to give resistance. Since the fixed panel 5 is fixed to the frame portion and is immovable, no clearance is formed between the upper end of the fixed panel 5 and the upper case 3 so that smoke or flame is exposed from the fixed panel 5. As shown in FIG. 4, the outdoor side surface portion 611 of the door tail side vertical frame 61 is provided with a smoke return member 64 extending in the height direction, and when the opening is fully closed, the door end side vertical frame of the fixed panel 5 is provided. By forming a smoke return member (not shown) formed on the outdoor side surface of the door, the door end side vertical frame 61 of the door body 6 and the door end side vertical of the fixed panel 5 when the opening is fully closed. Delays the flow of smoke from between the stile and the surroundings of the flame.

As shown in FIGS. 3 and 4, the flame flow resistance member 9 is a long member extending over the upper end surface 620 of the door body 6, and has an upper surface 90 extending horizontally, an outdoor hanging side 91, and the like. It includes an indoor side hanging side 92 and an indoor side rising side 93 extending above the indoor side hanging side 92. The flame flow resistance member 9 has a length dimension extending along substantially the entire width of the upper end surface 620 of the door body 6, but in the present embodiment, the door end side of the flame flow resistance member 9 is the door body 6. The door end side end surface 600 of the door end side vertical frame 60 has not been reached, and the door tail side of the flame flow resistance member 9 extends beyond the door end side end surface 610 of the door end side vertical frame 61 of the door body 6. It is provided with an extension portion 9A. A rising side 94 is formed at the door tail side end portion of the upper surface 90 (the door tail side end portion of the extending portion 9A). The upper end of the rising side 94 is lower than the upper end of the rising side 93 on the indoor side. Further, the outdoor portion of the rising side 94 is cut out.

As shown in FIG. 3, the upper surface 90 has a central portion 900 mounted on the upper end surface 620 of the door body 6 in the width direction, an outdoor extending portion 901 extending to the outdoor side beyond the upper end surface 620, and an upper end surface 620. It is composed of an indoor extension portion 902 extending beyond the above to the indoor side. As shown in FIG. 4, a thermal expansion refractory member 12 is provided on the outdoor side portion (outdoor extension portion 901) of the upper surface 90 over the length direction, and the door tail side end portion (extension) of the upper surface 90 is provided. A thermal expansion refractory member 12 is provided at the end portion of the protruding portion 9A) over the width direction.

As shown in FIG. 3, the extension dimension of the indoor extension portion 902 is larger than that of the outdoor extension portion 901. Therefore, the distance L1 between the indoor side hanging side 92 hanging from the indoor side end portion (the end portion of the indoor side extending portion 902) of the upper surface 90 and the indoor side surface portion 622 of the upper stile 62 is the outdoor side of the upper surface 90. The distance between the outdoor hanging side 91 hanging from the end (the end of the outdoor extending portion 901) and the outdoor surface 621 of the upper stile 62 is larger than the distance L2, that is, the indoor end of the upper surface 90 (the end of the upper surface 90). The distance from the indoor side hanging side 92 hanging from the indoor side extending portion 902) to the indoor side clearance C is the chamber hanging from the outdoor side end portion (the end portion of the outdoor side extending portion 901) of the upper surface 90. It is larger than the distance from the outer hanging side 91 to the outdoor clearance C. If the distance L2 can be lengthened due to the structure, the distance L2 may be lengthened, for example, the length may be about the same as the distance L1.

As shown in FIGS. 5, 6 and 8, the door body 6 is a hanging type sliding door, and the upper end surface 620 (specifically, via the flame flow resistance member 9) has a door end side portion and a door tip side portion. Door wheels 10 are provided on the door tail side portions, respectively, and are located on the lower portion of the internal space of the upper case 3 so as to roll on the rail 11 extending in the opening width direction. As shown in FIG. 2, a steady rest projection 65 is formed at the lower end of the door body 6 so as to move along a guide groove (not shown) formed in the lower frame 4. There is. Further, a lock device 66 is provided on the door end side of the lower end portion.

The door roller on the door end side is the driven side door roller, and the door roller on the door end side is the drive side door roller. The drive mechanism 7 includes a drive chain 70 for driving the drive side door roller 10 and an electric motor 71 for driving the drive chain 70. Normally, the door roller 10 rolls on the rail 11 by the forward and reverse rotation of the electric motor 71, so that the door body 6 slides on the rail 11 to open and close the opening. The drive mechanism 7 further includes a self-closing device 72, and when a fire breaks out in the open opening state (including fully open and half-open), the self-closing device 72 operates to close the door body 6. Move in the direction to make it fully closed. Such a self-closing device (equipped with a urging means in the closing direction of the door body, the movement in the closing direction by the urging means is normally regulated, and the regulation is lifted in the event of a fire, etc.) is applicable. Since it is known to those skilled in the art, detailed description thereof will be omitted.

The case body includes an upper surface 30, an outdoor side finding surface 31, and a lower frame portion formed below the outdoor side finding surface 31. In the illustrated embodiment, the lower frame portion is formed between the first horizontal plane 32 on the side close to the clearance C, the second horizontal plane 33 on the side far from the clearance C, and the first horizontal plane 32 and the second horizontal plane 33. A downward concave portion 34, a vertical rising side 35 formed at the tip of the first horizontal plane 32 (the end facing the clearance C), and a vertical side 36 formed at the base end of the first horizontal plane 32 are provided. ing. A horizontal side 37 is formed from the upper end of the vertical side 36 toward the outdoor side, and the base end side of the support side 38 that supports the rail 11 is supported by the horizontal side 37. In the half portion on the door end side in the opening width direction of the lower frame portion, the first horizontal plane 32 and the second horizontal plane 33 become water continuous planes as a whole by closing the downward concave portion 34 (see FIG. 5). In the half portion on the door tail side in the opening width direction, the upper end portion of the fixing panel 5 is fitted into the downward concave portion 34, and the first horizontal plane 32 and the second horizontal plane 33 are formed with the fixing panel 5 interposed therebetween (FIG. 6). , See FIG. 7).

The inspection cover 8 has an L-shaped cross-sectional view from a vertical surface 80 forming the indoor side finding surface of the upper case 3 and a horizontal surface 81 forming the indoor side lower surface of the upper case 3, and the tip of the horizontal surface 81. A vertical rising side 82 is formed in the above. The inspection cover 8 is rotatable with respect to the case body by connecting the upper end of the vertical surface 80 to the case body via a hinge 800.

Inside the corners of the vertical surface 80 and the horizontal plane 81 of the inspection cover 8, a cross member 83 having a cross-sectional view shape is provided over the length direction (opening width direction). L-shaped support brackets 84 are provided from the horizontal piece 840 and the vertical piece 841 at both ends in the length direction (opening width direction) of the case body, and the inspection cover 8 supports the upper surface 830 of the cross member 83 with the support bracket 84. The cross member 83 and the support bracket 84 are fixed to the case body by fastening the cross member 83 and the support bracket 84 with the screw 85 in a state of being in contact with the lower surface of the horizontal piece 840.

A horizontally long opening extending in the opening width direction is formed between the rising side 82 formed at the tip of the horizontal plane 81 of the inspection cover 8 and the rising side 35 of the lower frame portion of the case body, and the door is formed in this horizontally long opening. The upper end portion of the body 6 is accepted, the rising side 82, the indoor side surface portion 622 of the upper stile 62, the upper portion of the indoor side surface portion 602 of the door end side vertical stile 60, and the indoor side surface portion 612 of the door tail side vertical stile 61. An indoor clearance C is formed between the upper part of the door and the upper part of the door end side vertical stile 61, the upper part of the rising side 35 and the outdoor side surface portion 621 of the upper stile 62, and the upper part of the outdoor side surface portion 601 of the door end side vertical stile 60. An outdoor clearance C is formed between the outdoor surface portion 611 and the upper portion.

In the fully closed state of the opening, as shown in FIGS. 6 and 7, the rising side 82 passes through the clearance C to the indoor side surface portion 622 of the upper stile 62 and the upper portion of the indoor side surface portion 602 of the door end side vertical stile 60. It faces the upper portion of the indoor side surface portion 612 of the door tail side vertical stile 61. The indoor side hanging side 92 of the flame flow resistance member 9 attached to the upper end of the door body 6 is largely brought out from the clearance C to the indoor side by the indoor side extending portion 902 of the upper surface 90 and extends apart from the cross member. A clearance C1 is provided on the vertical surface 831 of the 83 and is in close proximity to the vertical surface 831. The rising side 93 extends upward and the hanging side 92 on the indoor side extends downward to the indoor end of the indoor extending portion 902. The horizontal plane 81 is located below the lower end of the indoor side hanging side 92 with the clearance C2, and is located directly below the lower end of the indoor side hanging side 92 on the horizontal plane in the length direction. A thermal expansion fireproof member 12 is provided over the entire area.

In the fully closed state of the opening, as shown in FIGS. 6 and 7, the rising side 35 passes through the clearance C to the outdoor side surface portion 621 of the upper stile 62 and the upper portion of the outdoor side surface portion 601 of the door end side vertical stile 60. It faces the upper portion of the outdoor side surface portion 611 of the door tail side vertical stile 61. The outdoor extending portion 901 of the upper surface 90 of the flame flow resistance member 9 has a clearance C3 under the support side 38 that supports the rail 11 and extends so as to face each other, and the outdoor extending portion 901. A thermal expansion fireproof member 12 is provided on the upper surface in the length direction. The outdoor hanging side 91 is close to each other with a clearance C4 and a vertical side 36 located on the outdoor side. A first horizontal plane 32 is located below the lower end of the outdoor hanging side 91 with a clearance C5, and a thermal expansion refractory member 12 is provided on the first horizontal plane 32 in the length direction. The lower portion of the outdoor hanging side 91 of the flame flow resistance member 9 attached to the upper end of the door body 6 is located on the outdoor side of the upper portion of the rising side 35 and faces each other with a clearance C6.

Explaining the case where the fluid movement path between the internal space of the upper case 3 and the indoor clearance C flows from the internal space to the outdoor clearance C, the indoor extending portion 902 of the upper surface 90 of the flame flow resistance member 9 Flows sideways toward the indoor side along the upper surface of the flame flow resistance member 9, flows upward along the rising side 93 of the flame flow resistance member 9, and flows upward along the indoor side surface of the indoor side hanging side 92 of the flame flow resistance member 9. It flows downward through the clearance C1 between the hanging side 92 and the vertical surface 831 of the cross member 83, passes through the clearance C2 between the lower end of the indoor side hanging side 92 and the horizontal plane 81, and is along the upper surface of the horizontal plane 81. The rising side 82, the indoor side surface portion 622 of the upper stile 62, the upper portion of the indoor side surface portion 602 of the door end side vertical stile 60, and the indoor side surface portion 612 of the door tail side vertical stile 61. It flows downward through the clearance C between the upper part and the upper part of the.

Explaining the case where the fluid travel path between the internal space of the upper case 3 and the outdoor clearance C flows from the internal space to the outdoor clearance C, the support side 38 and the outdoor side of the upper surface 90 of the flame flow resistance member 9 will be described. It flows laterally toward the outdoor side through the clearance C3 between the extension portion 901 and the outdoor vertical side 91 and the vertical side 36 along the outdoor surface of the outdoor hanging side 91 of the flame flow resistance member 9. It flows downward through the clearance C4 between them, and from the clearance C5 between the lower end of the outdoor hanging side 91 and the first horizontal plane 32 to the clearance C6 between the lower portion of the outdoor hanging side 91 and the rising side 35. It flows upward along the rising side 35, the outdoor surface portion 621 of the upper stile 62, the upper portion of the outdoor surface portion 601 of the door end side vertical stile 60, and the upper portion of the outdoor surface portion 611 of the door tail side vertical stile 61. It flows downward through the clearance C between them.

As is clear from comparing FIGS. 5, 6 and 9, in the present embodiment, the height dimension of the upper portion of the door body 6 located in the upper case 3 is the height of the upper portion of the conventional door body 6. It is designed to be larger than the vertical dimension, and the height dimensions of the outdoor hanging side 91 and the indoor hanging side 92 of the flame flow resistance member 9 are designed to be larger than the height dimensions of the rising side 35 and the rising side 82. (In the illustrated embodiment, it is set to be approximately four times as high, but at least twice as high). By increasing the height dimensions of the outdoor hanging side 91 and the indoor hanging side 92 of the flame flow resistance member 9, the clearance C4 and the clearance C1 are lengthened, so that the clearance C of the flame generated above the door body 6 is increased. The reach to is increased. It is difficult to increase the height dimension of the rising side 35 in order to insert the upper portion of the door body 6 into the upper case 3, and the rising side is used to open and close the inspection cover 8. It is difficult to increase the height dimension of 82.

The thermal expansion refractory member 12 is, for example, a member that foams and expands when the temperature is heated to a temperature of 150 ° C. to 250 ° C. As the thermal expansion refractory member 12, for example, Fiblock (registered trademark) of Sekisui Chemical Co., Ltd. can be used. In the present embodiment, the thermal expansion refractory member 12 made of a sheet piece is fixed by an adhesive tape. These thermal expansion refractory members 12 expand due to the heat of a fire and close the voids around each thermal expansion refractory member 12.

Examples of the source of the flame in the internal space of the upper case 3 include a resin door roller 10, oil of the motor 71, an electric wire coating portion to the motor 71, and the like, which are the door bodies 6 in a fully closed posture. It will be located above. Further, when the door body 6 is in the fully open state or the half open state at the time of a fire, the opening is fully closed by the self-closing device 72.

On the indoor side of the door body 6, the flame generated in the upper portion of the door body 6 is kept away from the door body 6 by the upper surface of the indoor extending portion 902 of the flame flow resistance member 9. The distance from the flame reaching the clearance C is increased by the indoor side extending portion 902, the indoor side rising side 93, the indoor side hanging side 92, and the horizontal plane 81. Further, when the thermal expansion refractory member 12 on the horizontal plane 81 is foamed by the heat of the flame, the lower end portion of the clearance C1 and the clearance C2 are closed by the expanded thermal expansion refractory member 12'. Therefore, it is possible to prevent the flame generated in the internal space of the upper case 3 from being exposed from the clearance C on the indoor side as much as possible.

On the outdoor side of the door body 6, the flame generated in the upper portion of the door body 6 is separated from the door body 6 by the upper surface of the outdoor extending portion 901 of the flame flow resistance member 9, but is separated from the door body 6 by the heat of the flame. When the thermal expansion refractory member 12 on the outdoor extending portion 901 foams, the clearance C3 between the outdoor extending portion 901 and the support side 38 is closed by the expanded thermal expansion refractory member 12'. When the thermal expansion refractory member 12 on the first horizontal plane 32 is foamed by the heat of the flame, the lower portion of the clearance C4, the clearance C5, and the clearance C6 are closed by the expanded thermal expansion refractory member 12'. Therefore, it is possible to prevent the flame generated in the internal space of the upper case 3 from being exposed from the clearance C on the outdoor side as much as possible.

3 Upper case 6 Door body 621 Outdoor side surface 622 Indoor side surface 7 Drive mechanism 8 Inspection cover 80 Vertical surface (indoor side found surface)
81 Horizontal plane (lower surface on the indoor side)
83 Cross member 9 Flame flow resistance member 90 Upper surface (upper surface)
901 Outdoor extension part (first extension part)
902 Indoor extension part (second extension part)
91 Outdoor hanging side 92 Indoor hanging side 93 Indoor rising side 94 Door butt side rising side 10 Door roller 11 Rail 12 Thermal expansion refractory member 32 First horizontal plane (outer outdoor lower surface)
35 Rising side (outdoor rising side)
36 Vertical side (outdoor vertical surface)
38 Support side (opposite side)
C, C1, C2, C3, C4, C5, C6 clearance (C3: space)

3 Upper case 35 Outdoor rising side 6 Door body 621 Outdoor side surface 622 Indoor side surface 7 Drive mechanism 8 Inspection cover 80 Vertical surface (indoor side found surface)
81 Horizontal plane (lower surface on the indoor side)
82 Indoor side rising side 83 Horizontal member 9 Flame flow resistance member 90 Upper surface 901 Outdoor extension part (first extension part)
902 Indoor extension part (second extension part)
91 Outdoor hanging side 92 Indoor hanging side 93 Indoor rising side 94 Door butt side rising side 10 Door roller 11 Rail 12 Thermal expansion refractory member 32 First horizontal plane (outer outdoor lower surface)
38 Support sides C, C1, C2, C3, C4, C5, C6 Clearance

Claims (1)

In a sliding door device that opens and closes by rolling on a rail with a door roller provided at the upper end of the door body in a state where the upper end portion of the door body has a clearance and is received in the upper case.
On the upper end surface of the door body, an upper surface portion including an outdoor side extending portion extending beyond the outdoor side surface portion of the door body and an indoor extending portion extending beyond the indoor side surface portion of the door body, and the above-mentioned A flame flow resistance member including an outdoor hanging side that hangs from the outdoor end of the outdoor extending portion and is separated from and opposed to the outdoor surface of the door body is provided.
A thermal expansion refractory member is provided on the upper surface of the outdoor extending portion so that the first edge, which is the outdoor edge, coincides with the outdoor end of the outdoor extending portion.
A support side that supports the rail extends above the outdoor extension portion so as to be separated from each other, and is closed between the outdoor extension portion and the support side by a thermal expansion refractory member that has expanded and expanded. A possible space is formed,
The rail extends above the substantially central portion of the door body in the door thickness direction, while the support side does not extend above the substantially central portion, and the support side is above the thermal expansion refractory member. The width of the support side in the door thickness direction is larger than the width of the thermal expansion refractory member in the door thickness direction. It extends beyond the second edge on the opposite side of the first edge.
By heating, the thermal expansion refractory member foams and expands so as to swell from the outdoor extending portion, and the space can be closed.
Sliding door device.

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